KR100830600B1 - Shade exchangeable led bulb - Google Patents

Abstract

A shade exchangeable LED bulb is provided to further improve the lifespan and stability of an LED electrode by reducing influence on a control substrate and a power source substrate by heat emitted from LEDs of the LED bulb. A shade exchangeable LED(Light Emitting Diode) bulb includes an LED substrate(9), a metal instrument, a body, and a control substrate(15). The metal LED substrate is made of a conductive material and has one or more LEDs(8). The metal instrument includes a coupling groove closely coupled to the metal LED substrate and a primary joint joined to a shade for attaching and detaching the shade. The metal instrument forms an outer circumference surface of the shade exchangeable LED bulb. The body is coupled to the metal instrument and forms the outer circumference surface of the shade-exchangeable LED bulb. The control substrate is connected to the metal LED substrate through electric wires to drive the LEDs, is spaced from the metal LED substrate, and controls the color and brightness of the LED. The metal instrument has one or more radiating blades(13) at an opposite side of a coupling groove. The control substrate includes a primary hole for making an air flowing passage in the body. Elements for controlling the driving of the LEDs are provided in a direction opposite to a lower part of the metal instrument.

Description

Shade exchangeable LED bulb

The present invention relates to a light emitting diode (LED) light bulb, and more particularly, to an LED light bulb capable of effectively dissipating heat generated by an LED.

Unlike conventional lighting, LED lighting equipment adopts LED light source technology, and in the selection of lighting equipment, conventional lighting equipment such as incandescent lamps, tungsten halogen lamps, fluorescent lamps and the like are being used, and LED lighting lamps are often used.

LED lighting fixtures have the advantages of low power consumption, low operating costs, low maintenance costs, long life, and high light efficiency compared to conventional lighting. In addition, the LED lighting fixture has the advantages of stable operation, easy installation, and excellent stability.

However, in the commercialization of LED bulbs, the heat generated from the LED is a problem. Many researches have been conducted to solve such problems.

FIG. 5 is a front view showing a conventional LED bulb, and FIG. 6 is a perspective view showing the interior of the conventional LED bulb of FIG.

Referring to FIGS. 5 and 6, the conventional LED bulb 200 includes a lens or cover 201 for diffusing light, a body fastening part 202, a body 203 composed of a metal radiator, and a metal LED substrate 9. It includes a mounting jaw 204 and a power supply substrate 206 for placing a), and is spaced apart from the metal LED substrate 9 at a constant distance 205 from the power substrate to be less thermally affected.

That is, in the related art, in order to process the heat of the power LED, as shown in FIG. 6, the power LED is mounted on the metal PCB, and the bulb body is made of thermally conductive aluminum to process the high temperature generated in the metal PCB. It has a structure which radiates heat by attaching a heat radiating blade | wing, making it the shape of an unevenness | corrugation, and widening the contact area of air. In addition, by placing the substrate of the circuit for supplying the current or voltage of the power LED at a predetermined interval is configured to be less affected by the malfunction and temperature of the semiconductor device due to the heat generated from the metal PCB.

However, in the conventional LED bulb, as a means for radiating the heat generated from the power LED, by mounting the LED on the metal PCB and the aluminum for heat dissipation at the corners by placing the wing of the unevenness to place the heat conduction and Due to the weak diffusion structure, the effect of heat dissipation is low and the size of the heat sink is large, which makes the appearance unprecedented. This heat dissipation material also has a significant cost increase due to aluminum or aluminum die-casting for high heat radiation efficiency. Will have

As a result, the bulb volume is large, which makes it difficult to achieve mechanical compatibility between an incandescent lamp and a three-wavelength bulb. Furthermore, in the related art, since the separation distance 205 due to heat varies according to the characteristics and power consumption of each company of the power LED, it has a weakness in practical use. Even if the product is designed with 3 cm space, if you want to apply other company's power LED, if the temperature characteristic is not correct, it may cause inconvenience to design the device more than 3 cm.

In addition, if there are many uneven wings on the heat sink, and the appearance is not beautiful and a lot of dust is caught in the gap, the appearance may be very messy when accumulating, which may lead to ignition.

In addition, when the infrared receiver is mounted on the LED bulb, the infrared component included in the high heat generated from the heat sink affects the infrared receiver, causing a malfunction.

In addition, in the conventional light bulb, there is an inconvenience that the user can not easily attach or remove a separate lampshade, but the user cannot easily replace the lamp according to the taste of the user.

An object of the present invention is to solve the problems of the prior art, specifically to improve the inconvenience of occupying a large and large area outside the heat sink due to high heat in the conventional LED bulb, and to reduce the volume and size of the heat-dissipating metal It is to provide LED bulbs that can reduce the manufacturing cost by reducing the volume and size of the entire plastic bulb material.

Another object of the present invention is to provide an LED bulb that can solve the problem that the appearance is not beautiful due to the unevenness of the conventional heat sink and the dust may be caught between the gradually leading to a fire when accumulated.

Yet another object of the present invention is to provide an LED bulb that can solve the problem that the infrared component included in the heat emitted from the LED affects the infrared receiver when operating by mounting some infrared receiver to the LED bulb. It is.

In order to achieve the above objects, the present invention provides a lamp lamp, a lamp lamp, comprising: a metal LED substrate made of a thermally conductive material having at least one LED; A transparent or translucent lampshade for collecting or diffusing light emitted from the LED; A metal having the same shape as the metal LED substrate and having a coupling groove for tightly coupling with the metal LED substrate and a primary fastening jaw fastened to the shade to attach and detach the shade; and forming an outer circumferential surface of the lamp shade replaceable LED bulb. Utensils; A body coupled with the metal fixture and forming an outer circumferential surface of the lamp lamp; And a control board connected to the metal LED substrate through a wire for driving the LED, spaced apart from the metal LED substrate, and controlling a color and brightness of the LED.

The metal appliance may have a secondary fastening jaw that is fastened to the body to attach and detach the body.

The metal appliance may have one or more heat dissipation blades formed in an uneven shape opposite to the coupling groove.

The metal fixture may have a wire passage for passing a wire connecting the metal LED substrate and the control substrate.

The control substrate may have a primary hole that creates an air flow passage of heat inside the body.

Elements provided on the control board to control driving of the LED may be provided in opposite directions of the metal apparatus.

The lamp replaceable LED bulb may further include a power board that receives an AC power from the outside and converts it into a DC power and supplies the same to the control board.

The power substrate may have a secondary hole for creating an air flow passage of heat inside the body.

The transformer provided on the control board to convert alternating current into direct current may be provided in the opposite direction of the metal appliance.

The metal apparatus may be made of aluminum or aluminum die casting.

One side of the body of the lower end of the metal appliance may be provided with an infrared receiving hole for receiving an infrared control signal for on-off control, color control and brightness control of the LED.

The body may have one or more vent holes below the control substrate.

The present invention having the above-described configuration achieves the following effects.

First, the heat dissipation effect of the LED bulb according to the present invention by the complex configuration of the LED bulb according to the present invention is significantly superior to the conventional. Therefore, the influence of heat generated from the LED of the LED bulb according to the present invention on the control board, power board, etc. can be reduced to further improve the life and stability of the LED electrode.

Second, the LED bulb according to the present invention can improve the inconvenience of occupying a large and large area outside the heat sink due to high heat in the conventional LED bulb. Therefore, the LED bulb according to the present invention is small in size and excellent in aesthetics, not only can significantly reduce the manufacturing cost, but also has the advantage that can be mechanically compatible with the existing incandescent bulb and three-wavelength bulb.

Third, the LED bulb according to the present invention can solve the problem that the appearance is not beautiful due to the unevenness of the heat sink in the conventional LED bulb and the dust may be caught in between, leading to a fire gradually accumulating.

Fourth, the LED bulb according to the present invention can solve the problem that the infrared component included in the heat emitted from the LED affects the infrared receiver when operating by mounting the infrared receiver to the LED bulb to cause a malfunction.

Fifth, the LED bulb according to the present invention can be easily detachable separate lampshade, has the advantage that can be variously produced according to the user's taste.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view illustrating a lamp replaceable LED bulb according to an embodiment of the present invention.

Referring to Figure 1, the lampshade replaceable LED bulb 100 according to an embodiment of the present invention is a removable lamp (1), metal fixture (2), infrared receiving hole (3), body (4), ventilation holes ( 5), the base 6 and the connection electrode 7 are included.

The removable shade 1 can collect or diffuse light, especially light emitted from the LED, and can be made of a transparent or translucent material.

The metal fixture 2 forms the outer circumferential surface of the LED bulb 100 and performs a function of releasing heat generated from the LED. The metal appliance 2 can be made of any metal having excellent thermal conductivity, for example made of aluminum or aluminum die casting.

The infrared light receiving hole 3 receives infrared rays, and specifically, an infrared control signal for on-off control, color control, and brightness control of the LED.

The body 4 couples with the metal fixture 2 and forms the outer circumferential surface of the LED bulb 100.

The ventilation hole 5 is installed in the lower portion of the body 4 to further improve the heat dissipation effect in addition to the main heat dissipation function of the metal appliance 2.

The base 6 and the connecting electrode 7 are parts connected to the bulb socket, and AC power may be applied thereto.

2 is a perspective view illustrating a lamp replaceable LED bulb according to an embodiment of the present invention, Figure 3 is an exploded view showing a lamp replaceable LED bulb according to an embodiment of the present invention.

2 and 3, one or more LEDs 8 are provided on a metal LED substrate 9 of thermally conductive material. Heat can be transferred to and released from the metal fixture 9 by soldering the LED 8 to the thermally conductive metal fixture 9 to handle the high heat generated in the LED 8.

4 is a cross-sectional view showing a metal apparatus according to an embodiment of the present invention.

Referring to FIG. 4, the metal fixture 2 includes a coupling groove 25, a primary fastening jaw 26, a secondary fastening jaw 12, and a heat dissipation wing 13.

2 to 4, the coupling groove 25 of the metal fixture 2 may have the same shape as the metal LED substrate 9 and may be closely coupled to the metal LED substrate 9. The bonding can be carried out, for example, by means of an adhesive on the back side of the metal LED substrate 9, whereby it can be precisely seated to widen the contact area and to transfer and diffuse heat more efficiently.

As a result, the high heat generated by the LED 8 is transferred to and absorbed into the metal fixture 2 more quickly, thereby increasing the heat diffusion and heat dissipation effect, thereby increasing the heat transfer efficiency and thus reducing the heat dissipation area. .

In addition, one or more heat dissipation vanes 13 are formed at the bottom of the metal tool 2 in the form of irregularities, for example, in order to create a wider heat dissipation area, and the outer surface of the metal tool 2 is in direct contact with air. The effect of heat dissipation is further obtained. As a result, the size of the metal fixture 2 can be further reduced, so that the size of the entire light bulb 100 can be reduced.

The metal fixture 2 has a primary fastening jaw 26 and a secondary fastening jaw 12, and can be easily coupled and separated from the detachable shade 1 and the body 4, respectively. That is, the primary fastening jaw 26 is fastened with the shade to detach the shade 1, and the secondary fastening jaw 12 is detached from the body 4 to attach and detach the body 4.

When the shade 1 is to be replaced, when the shade 1 is pushed into the primary fastening jaw 26, the lampshade 1 is caught by the primary fastening jaw 26 formed in the metal fixture 2, thereby easily replacing the shade 1. It is possible for the user to replace various types of shades to suit their purpose and taste. Similarly, if you pull the lampshade (1) a little, you can easily separate.

This is possible by using the metal fixture 2, and compared with the case of using a plastic substrate, it is possible to obtain the effect of having a long wear life and more stable use due to less wear and deformation.

Similarly, the secondary fastening jaw 12 can easily separate the body 4 from the metal appliance 2, so that the light bulb 100 can be easily cleaned and repaired.

The infrared receiver 14 receives an infrared control signal for on-off control, color control, and brightness control of the LED 8 through the infrared receiver hole 3.

The control board 15 performs on-off control, color control and brightness control of one or more LEDs 8 based on the received infrared control signal. The control board 15 is spaced apart from the metal LED board 9 by a certain distance.

In order to connect the LED 8 and the control board 15, a wire 10 connecting the LED 8 and the control board 15 is soldered to the connector hole 21 formed in the metal LED board 9. The connection wire 10 is connected to the control board 15 through the wire passage 11 formed in the metal appliance 2.

Since the control board 15 receives considerable heat from the metal fixture 2, the air flow is reduced by forming a primary hole 22 in the center of the control board 15 to be less affected by this and to create a separate high-temperature air flow passage. It is possible to smoothly increase the heat dissipation effect.

In the control board 15, an infrared receiver 14 for remotely operating is mounted on the lower end of the metal fixture 2 so that the LED board 8 is less affected by the infrared radiation component due to the high heat. It has the effect of reducing the problem of doing.

In addition, it is preferable that the elements provided on the control board 15 to control the driving of the LED 8 be provided in the opposite direction of the metal structure 2.

The control board 15 receives a large alternating current and constitutes a large amount of components to make a circuit. Therefore, as a means for solving this problem, a power supply board 17 including a transformer 20 for converting a separate alternating current into direct current is provided at the bottom. The control board 15 is connected to the power board 17 through the connector 16.

The power supply board 17 is mounted to the guide mechanism 18 provided in the body 4. The power supply board 17 is configured such that a direct current output of 30 V or less is obtained by converting alternating current into direct current, thereby significantly reducing the heat generation problem of the control board 15 and the general power supply unit, thereby reducing the overall size of the bulb and prolonging the effect. Even if it is used, the effect of extending the life can be obtained by being less affected by heat.

The connection hole 23 provided in the power supply board 17 is connected to the base 6 and the electrode 7 through the electric wire 19, and AC power is applied thereto.

The power board 17 may further include a secondary hole 24 on the power board in order to reduce heat accumulation inside the body 4 and to smooth air flow, thereby further improving heat dissipation. In addition, each element such as a transformer 20 provided on the power supply board 17 and converting alternating current into direct current may be provided in the opposite direction of the metal appliance 2.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a front view illustrating a lamp replaceable LED bulb according to an embodiment of the present invention.

2 is a perspective view illustrating a lamp replaceable LED bulb according to an embodiment of the present invention.

3 is an exploded view showing a lamp replaceable LED bulb according to an embodiment of the present invention.

4 is a cross-sectional view showing a metal apparatus according to an embodiment of the present invention.

5 is a front view showing a conventional LED bulb.

6 is a perspective view showing the interior of the conventional LED bulb of FIG. 5.

Explanation of symbols on the main parts of the drawings

100: LED bulb 1: removable lamp according to the invention

2: metal fixture 3: infrared receiving hole

4: body 5: ventilation hole

6: base 7: connection electrode

8: LED 9: metal LED board

10: connection wire 11: wire passage

12: secondary fastening jaw 13: heat dissipation wing

14: infrared receiver 15: control board

16: connector 17: power board

18: guide fixture 19: AC power supply line

20: transformer 21: connector hole

22: Primary hole of control board 23: Connection hole to which AC power is applied

24: secondary hole of the power substrate 25: coupling groove

26: primary fastening jaw

Claims (12)

In the freshly replaceable LED bulb, A metal LED substrate of thermally conductive material having one or more LEDs; A transparent or translucent lampshade for collecting or diffusing light emitted from the LED; A metal having the same shape as the metal LED substrate and having a coupling groove for tightly coupling with the metal LED substrate and a primary fastening jaw fastened to the shade to attach and detach the shade; and forming an outer circumferential surface of the lamp shade replaceable LED bulb. Utensils; A body coupled with the metal fixture and forming an outer circumferential surface of the lamp lamp; And A control substrate connected to the metal LED substrate through a wire for driving the LED, spaced apart from the metal LED substrate, and controlling a color and brightness of the LED; The metal appliance has at least one heat dissipation blade formed in the form of unevenness on the opposite side of the coupling groove, The control substrate has a primary hole for creating an air flow passage of heat inside the body, And a component provided on the control board to control driving of the LED is provided in a direction opposite to the lower side of the metal fixture. The method of claim 1, And the metal fixture has a secondary fastening jaw fastened to the body to attach and detach the body. delete The method of claim 1, And the metal fixture has a wire passage for passing a wire connecting the metal LED substrate and the control substrate. delete delete The method of claim 1, The lamp lamp of claim 1, further comprising a power board that receives an AC power from the outside, converts the power into a DC power, and supplies the same to the control board. The method of claim 7, wherein The power supply substrate is a lamp lamp, characterized in that the secondary hole for creating an air flow passage of heat inside the body. The method of claim 7, wherein And a transformer for converting alternating current into direct current provided on the control board is provided in a direction opposite to the lower side of the metal appliance. The method of claim 1, And the metal fixture is made of aluminum or aluminum die casting. The method of claim 1, One side of the body of the lower end of the metal fixture is a freshly replaceable LED bulb, characterized in that the infrared receiving hole for receiving an infrared control signal for on-off control, color control and brightness control of the LED. The method of claim 1, And the body has at least one vent hole below the control substrate.

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